Welding apparatus

ABSTRACT

Apparatus and method are disclosed for welding metal members by means of vibratory energy. Reliability of such welding apparatus is improved by provision of an anvil designed for regulated response to excitation by an ultrasonically-powered sonotrode. The anvil is mounted in an assembly which contributes appropriate support, restraint and isolation.

United States Pate Walraven et a1.

WELDING APPARATUS Inventors: Thomas A. Walraven, 743 S.

Matlock St.; Nicholas Maropls, 310 E. Rosedale Ave., both of West Chester; William C. Elmore, 525 Walnut Ln., Swarthmore; Janet Devine, 1435 Hunter Rd., West Chester, all of Pa.

Filed: Oct. 18, 1971 Appl. No.: 189,867

Related US. Application Data Division of Ser. No. 42,518, June 1, 1970, Pat. No. 3,695,500, which is a continuation-in-part of Ser. No. 717,295, March 29, 1968, abandoned.

US. Cl 228/1, 29/470.l, 156/73,

3 10/ 25 Int. Cl 323k 1/06 Field of Search 228/1; 29/470, 470.1;

74/1, 1 R, 1 SS; 310/25, 26; 156/73 [4 Oct. 16, 1973 [56] References Cited UNITED STATES PATENTS 3,106,856 10/1963 Jones et a1 228/1 3,056,192 10/1962 Jones 29/470.1 X 3,002,270 10/1961 DePrisco 24/470 2,946,119 7/1960 Jones et al. 29/470 Primary ExaminerJ. Spencer Overholser Assistant Examiner-Robert J. Craig Att0rney-Seidel, Gonda and Goldhammer [57] ABSTRACT Apparatus and method are disclosed for welding metal members by means of vibratory energy. Reliability of such welding apparatus is improved by provision of an anvil designed for regulated response to excitation by an ultrasonically-powered sonotrode. The anvil is mounted in an assembly which contributes appropriate support, restraint and isolation.

1 Claim, 3 Drawing Figures WELDING APPARATUS This application is a division of copending application Ser. No. 42,518, filed on June 1, l970, for CON- TRA-RESONANT ANVIL, now US. Pat. No. 3,695,500, which was a continuation-in-part of our application Ser. No. 717,295, filed Mar. 29, 1968, now abandoned.

Vibratory welding process and apparatus have been described in U.S. Pat. No. 2,946,l l9 entitled Method and Apparatus Employing Vibratory Energy for Bonding Metals issued July 26, 1960, in the names of James Byron Jones, William C. Elmore and Carmine F. De- Prisco. The disclosures in said patent are incorporated into the subject patent application and made a part hereof.

Ultrasonic welding in accordance with the present invention may be effected under the conditions generally developed and set forth in the above-identified patent. As described therein, the materials to be welded are clamped in the welding machine between a transducer-driven sonotrode and an opposing member, or anvil. The two workpiece surfaces to be joined are clamped together at the intended weld zone with a static force sufficient to hold the pieces together and assure that vibration delivered by the transducer-driven sonotrode will produce welds resulting from the cyclic stresses in the weld zone.

It will be understood by those familiar with ultrasonic welding that if the microdisplacements and interfacial stresses associated with welding are maximum, then energy delivery to the weld locale will be maximum. The sonotrode-opposing, work-supporting member, hereinafter referred to as the anvil, is significantly involved with the capability of the welding apparatus to deliver power to the weldment locale and produce superior welds with minimum power.

Reliability and reproducibility of performance of vibratory welding equipment has occasionally been hampered by anvil difficulties. Varying performance has sometimes been attributed to'the supporting structures of anvils, to their attachments to the primary structures of the welding machine, and to varying elastic compliance of the anvils themselves.

The need for designable anvils with predictable characteristics has been increasingly evident as equipment of greater precision, higher power, or otherwise generally improved capability has been developed and utilized in production. Anvil problems during preshipment performance checkout of ultrasonic'welding machines have sometimes consumed excessive time and been reflected in increased equipment cost. Yet as far as is known, no completely practical, designoptimizable, non-powered anvil apparatus and/or method have heretofore been developed as a solution to the above-described ultrasonic welding machine problems.

Consideration of ultrasonic welding has led to an accepted view that, for best welding performance, the amplitude of the sonotrode tip should be maximum under the power delivery conditions of welding. Regarding desirable function of the anvil, two views have been prevalent one, that the anvil should preferably be subject to powered vibratory excursions which are out-of-phase with the vibratory excursions of the sonotrode tip, and the second, that when a powered anvil could not be provided, the anvil should be generally passive, i.e., non-compliant or dead-beat.

It has long been known that ultrasonic welding can be enhanced by out-of-phase excursioning in both the sonotrode tip and the anvil, a condition which can be accomplished by appropriately powering the anvil member as well as the sonotrode. The power-driven anvil approach, however, requires an additional transducer-coupling device and is therefore complicated and more costly; practicality usually prescribes use of systems wherein power delivery to the work is by one powered sonotrode only.

As to the acoustic reaction of non-powered anvils, a generally-held belief has been that maximum welding effect was realizable when the anvil was, as stated above, virtually passive in response to vibratory forces imposed by the sonotrode tip. Following this approach, effort has from time to time been expended toward maximizing the passive, or dead-beat characteristics of ultrasonic welding anvils and their supports. Although it was recognized during these efforts that the anvil would necessarily be elastic within the normal range of its material properties, the potential role of the natural elastic vibration of the anvil has heretofore not been adequately understood.

The present invention is based on the discovery that essentially passive or dead-beat anvils do not produce optimized welding machine performance, as evaluated by thicknesses of materials successfully welded and the power-time relationship needed for welding same. It was observed, on the contrary, that substantially improved welding performance can be effected when the anvil vibrates, and with considerable intensity, during the accomplishment of an ultrasonic weld. It was since postulated that the enhanced welding effect is derived from periods of out-of-phase excursion of the anvil tip with reference to the excursions of the sonotrode tip during the interval used to accomplish a vibratory weld a circumstance intermittently resembling that which occurs continuously when both the anvil and sonotrode are powered, as hereinabove discussed. It was further postulated that the elastic compliance of the anvil is related to a vibratory response of the anvil to the excitation by the sonotrode.

Frequency response in resonant anvils has been considered previously for instance, it has been shown that when the anvil response to the sonotrodes vibration occurs at the same frequency as the operating frequency of the powered transducer coupling system, or in overtones thereof, welder performance is adversely affected. This effect has been acknowledged previously, as in the hereinabove reference US. Pat. No. 2,946,119, but elimination of adverse anvil performance in a specific welding machine has generally involved only experimental adjustments of anvil dimensions.

Investigation and analysis associated with the present invention revealed that much improved reproducibility of welding performance as well as actually stronger welds are accomplished when the anvil has a resonant frequency somewhat above, or somewhat below, the operating frequency of the powered transducercoupling-sonotrode system of the vibratory welding machine.

It was further observed that an anvil of desired contra-resonant characteristics presents a high driving impedance at the operating frequency of the transducer- I coupling system, and that impedance values could be employed in dimensioning the anvil for regulated response within a range of acceptable frequencies.

Thus the object of the present invention is to provide novel apparatus and method for ultrasonic .welding.

It is another object to provide ultrasonic anvil apparatus and method wherein a non-powered anvil reed is subject to excursions which are out-of-phase with excursions of the welding sonotrode over a substantial portion of the welding interval.

It is another object to provide a novel reactive element for use in an ultrasonic apparatus such that said element is induced to vibration by and out of phase with an exciting member or members of said apparatus during a significant portion of the interval of applied vibration.

Other objects appear hereinafter.

There is shown in the drawings an embodiment of a vibratory apparatus which exmplifles the present invention. It must be understood that the invention is not limited to the embodiment here presented or to the precise arrangement and instrumentalities shown.

Having these qualifications in mind and referring to the schematic drawings wherein like reference characters refer to like parts:

FIG. 1 is a perspective view of an exemplary anvil apparatus designed for use with an ultrasonic welding machine in accordance with the present invention.

FIG. 2 is a sectional view of the apparatus taken across line 2-2 of FIG. 1.

FIG. 3 is an exploded perspective view of the components of the apparatus depicted in FIGS. 1 and 2.

Referring conjointly to FIGS. 1, 2 and 3, all of which portray an anvil apparatus designated as 50, it should be initially understood that fixed-free reflective anvil 10 is the critical member of apparatus 50 and that its design characteristics establish general requirements for other members of an effective assembly. Anvil reed l and base ring 12'to which it is attached most fundamentally embody the novel reciprocal function of apparatus 50 with a cooperating ultrasonic welding machine. Otherwise apparatus 50 is comprised of various mechanical elements which serve as practical hardware for the support, restraint, and isolation required to assure the function of apparatus 50 in accordance with the present invention.

Referring now to the drawings in detail, in FIG. 1 the anvil reed is shown assembled into a work support apparatus of a type characteristically employed with ultrasonic welding machines. Readily identifiable components in the FIG. 1 perspective view include anvil 10 which is shown attached into base ring 12 which restrains anvil l0. Anvil l0 and ring 12 are preferably metallurgically attached as by brazing. The assembly of anvil 10 and ring l2 may be removably attached to flange 18a of a support mass 18 by means of bolts such as 8a, 8b, 8c and 8d. An isolated support mass 18 may be housed within the bore of block support member 24 which is shown mechanically attached to the frame of the welding machine by bolts 7a and 7b which penetrate the frame 15.

Structural details may be more completely identified by considering conjointly FIGS. 2 and 3. Anvil 10 preferably includes a hardened work-contacting face member 10a which may either be screw-attached or preferably metallurgically, attached as by brazing to anvil 10. When utilized as a detachable element, the hardened tip 10a is included as an integral part of anvil 10 in calculations pertinent to overall anvil design.

The base portion of anvil 10 is preferably metallurgically bonded, as by brazing, at jointure interface 11, into base ring 12. The function of ring 12 is to support and provide a degree of clamping action on anvil 10 which will assure a desired vibratory condition of anvil 10 as it vigorously contra-resonates in response to applied forces from the active sonotrode 23 of a welder.

A series of elastomeric gasket-like components having as their purpose the prevention of metallic contact between the support mass 18 and block support 24 are shown. Top'isolator gasket 20 is interposed at the interface between flange 18a and block support 24. Anvil support 24 may be grooved circumferentially at an upper and lower location of the bore 25 for retention of upper and lower O-ring elastomeric isolators 22 and 26 which serve to prevent metal contact between wall areas of mass 18 and block support 24 and thereby acoustically isolate mass 18 from support 24. Bottom elastomeric disk 28 acoustically isolates the support 24 from steel clamping plate 30.

Mass 18 is retained in block support 24 by the bolt 34. Bolt 34 extends through washer 32, clamping plate 30 and elastomeric disk 28 into a tapped hole in mass 18. It will be seen that tightening of bolt 34 will have the effect of drawing the flanged mass 18 down toward block support 24. Elastomeric member 20 acoustically isolates flange 18a and support 24.

It will be noted that sonotrode 23, anvil 10, ring 12 and mass 18 are shown to be coaxial, but such coaxial arrangement is not mandatory; moreover, it should be clearly understood that the anvil of the present invention is altogether useful and effective with the several embodiments of ultrasonic welding apparatus depicted in FIGS. 1, 3, 6, and 8 of US Pat. No. 2,946,119.

It has been stated hereinabove that anvil 10 is the critical member of apparatus and that its design characteristics establish design requirements for other 1 members of the assembly. The general method for dimensioning an anvil reed for appropriate contraresonance includes the steps of (l) calculating anvil impedance as related to elastic compliance factors,

- anvil reed 10 is based upon the operating frequency and acoustic power capability of the welder. If a flexur al contra-resonant frequency response is desired in anvil reed 10 (as, for example, for use in an ultrasonic apparatus which delivers vibratory energy in the shear mode, the length of the anvil reed is determined by the equation:

wherein L is the length of anvil reed 10 in inches, K is the radius of gyration r/2 of the anvil reed section, (0 is the angular frequency, 2rrf and f is the operating frequency of the welder, c is the velocity of sound in the be determined from the roots of the transcendental equation.

tanhatan (1 Solutions of equation 2 and substitution in equation 1 defines the contra-resonant or high-impedance characteristics for the anvil reed 10. Suitable roots of this equation are a, E 1r/4, or E 9 tr/4, and a E 13 17/4; etc.

The anvil 10 described above relates to an anvil- Suitable roots of this equation are: a 1r/2, 31r/2, 5'rr/2, 71r/2, etc. Solution of equation 6 and substitution in equation 5 defines the contra-resonant or high impedance characteristics for the anvil reed 10 operating in the torsional mode.

It will be recognized by those skilled in the art that an anvil reed designed according to the foregoing equations will have an effective length somewhat greater than its physical length due to non-ideal boundary conditions, particularly compliance at its fixed end. However, since the foregoing equations are well known, it is expedient to use these equations for reproducibly designing anvil reeds, but in practice it may be necessary to modify the lengthsomewhat to achieve the desired characteristics of moderately high impedance and amplitude which yield optimum performance.

The diameter for each anvil reed described above is based upon the reference diameter of 1.65 inches which has been found adequate for ultrasonic systems of up to 1,000 acoustic watts power capability. The diameter d, for anvils for any power level P, can be des s nLinkslen pfthea nins esw s i longitudinal velocity of the sound in the anvil reed, w is the angular frequency 21rf andfis the operating frequency of the welder, and a is a function ofimpedance and can be determined from the roots of the transcendental equation:

termined from the equation:

Thus, for a 15'kHz welder of 4,000 acoustic watt power capability, the diameter d, is attained from equation 7 as follows:

d, 0.29 4,00'0'= 0.29 x 7.98 2.31 inches Hence, from equation 1 for a tool steel reed anvil, wherein m 9.42 X 10 sec c 2.04 X 10 in/sec; K 0.578 in; and d 91r/4, the length L is approximately 7.92 inches. It should be noted that any of the roots of equation 2 satisfies the requirements; however, more practical length values are achieved for the first four roots, i.e. 01 or...

The following chart summarizes suitable dimensions for the relevant components which have been acoustically determined in accordance with twelve operative embodiments and are for illustrative purposes only. In said chart, L represents the length of anvil reed 10, H represents the height of ring 12 and of mass 18, and d 5 represents their diameters.

Ring 12 P Anvil read 10 Mass is ower Welder frequency (kc.) (watts) L1 (in.) L, (in.) Lt (in.) d (in.) H (in.) d (in.) H (in.) d; (in.) d; (in

15 1, 000 6. 63 10. 20 6. 22 1. 63 3 4 5V 4% 4 ,000 7. 92 10.20 a. 22 2. a1 a 4 5%,, 59s 4 L ahear/ where L is the length of the anvil in inches, to is the gular frequency 21rfandfis the operating frequency of the welder, c m is the shear velocity of sound in the anvil, and a is a function of impedance and can be determined from the roots of the transcendental equations cota 0 wherein k is the radius of gyration r/2 of the anvil reed section where r is the radius of the reed, w is the angular frequency 21rf where f is the operating frequency of the transducer coupling system of said ultrasonic welding machine, 0,, is the longitudinal velocity of sound in the anvil reed, a is one of the roots of the transcendental equation: tanha tana 0, and the diameter d, of the anvil reed is defined by:

where P, is the desired acoustic power level at which the anvil is to be used, a welding sonotrode operatively associated with the anvil reed to weld the metal members clamped therebetween, said anvil reed having a resonant frequency different from the resonant frequency of said sonotrode.

Pennsylvania.

- Attesting Officer UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,765,589 D d October 16, 1973 Inventor(s) Thomas A. Walraven et a1 Y It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

This patent was assigned by the inventors to Aeroprojects Incorporated, West Chester, Pennsylvania, a corporation of Signed and sealed this lhth day of May 197A.

(SEAL) Attest:

EDWARD I LFLEITCHERJR. v T C. MARSHALL DANN Comissioner of Patents USCOMM-DC 60376-P69 FORM Po-wso (10-69) I I I UTS. GOVERNMENT PRINTING OFFICE i969 0-3G6-33l UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Dated October 16, 1973 Patent No. 3 765 5 89 Inventor(s) Thomas A. Walraven et al 7 It is certified that error appears in the above-identified patent 'and that said Letters Patent are hereby corrected as shown below:

' This patent was assigned by the inventors to Aeroprojects Incorporated, West Chester, Pennsylvania, a corporation of Pennsylvania.

Signed and sealed this lLLth day of May 19714..

(SEAL) Attestr EDWARD M.FLET0HER,JR. I c. MARSHALL DANN ,Attesting Officer I Commissioner of Patents USCOMM-DC 60376-P69 'k U.S. GOVERNMENT PRINTING OFFICE 1909 0-3664 orm Po-wso (10-69) 

1. Welding apparatus comprising an isolated support mass, an anvil reed free at one end and connected at its other end to said mass, a support for said mass and anvil reed, an ultrasonic welding machine having a transducer coupling system, the length of the anvil reed being substantially defined by: L Alpha square root Kco/ omega wherein k is the radius of gyration r/2 of the anvil reed section where r is the radius of the reed, omega is the angular frequency 2 pi f where f is the operating frequency of the transducer coupling system of said ultrasonic welding machine, co is the longitudinal velocity of sound in the anvil reed, Alpha is one of the roots of the transcendental equation: tanh Alpha tan Alpha 0, and the diameter dx of the anvil reed is defined by: dx 0.29 fourth root Px where Px is the desired acoustic power level at which the anvil is to be used, a welding sonotrode operatively associated with the anvil reed to weld the metal members clamped therebetween, said anvil reed having a resonant frequency different from the resonant frequency of said sonotrode. 